"""Unit test for Light objects."""

from unittest.mock import Mock, patch

from xknx import XKNX
from xknx.devices import Light
from xknx.devices.light import ColorTemperatureType
from xknx.dpt import DPTArray, DPTBinary
from xknx.dpt.dpt_242 import XYYColor
from xknx.telegram import GroupAddress, Telegram
from xknx.telegram.apci import GroupValueRead, GroupValueWrite


class TestLight:
    """Class for testing Light objects."""

    #
    # TEST SUPPORT DIMMING
    #
    def test_supports_dimm_true(self):
        """Test supports_dimm attribute with a light with dimmer."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_brightness="1/6/6",
        )
        assert light.supports_brightness

    def test_supports_dimm_false(self):
        """Test supports_dimm attribute with a Light without dimmer."""
        xknx = XKNX()
        light = Light(xknx, "Diningroom.Light_1", group_address_switch="1/6/4")
        assert not light.supports_brightness

    #
    # TEST SUPPORT COLOR
    #
    def test_supports_color_true(self):
        """Test supports_color true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_color="1/6/5",
        )
        assert light.supports_color

    def test_supports_color_false(self):
        """Test supports_color false."""
        xknx = XKNX()
        light = Light(xknx, "Diningroom.Light_1", group_address_switch="1/6/4")
        assert not light.supports_color

    def test_supports_individual_color_true(self):
        """Test supports_color true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
        )
        assert light.supports_color

    def test_supports_individual_color_only_brightness_true(self):
        """Test supports_color true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Individual colors only brightness",
            group_address_brightness_red="1/1/3",
            group_address_brightness_green="1/1/7",
            group_address_brightness_blue="1/1/11",
        )
        assert light.supports_color

    def test_supports_individual_color_false(self):
        """Test supports_color false."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
        )
        assert not light.supports_color

    #
    # TEST SUPPORT COLOR RGBW
    #
    def test_supports_rgbw_true(self):
        """Test supports_rgbw true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_rgbw="1/6/5",
            group_address_color="1/6/6",
        )
        assert light.supports_rgbw

    def test_supports_rgbw_false(self):
        """Test supports_color false."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_color="1/6/6",
        )
        assert not light.supports_rgbw

    def test_supports_individual_rgbw_true(self):
        """Test supports_rgbw true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        assert light.supports_rgbw

    def test_supports_individual_color_only_brightness_rgbw_true(self):
        """Test supports_color true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Individual colors only brightness",
            group_address_brightness_red="1/1/3",
            group_address_brightness_green="1/1/7",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_white="1/1/12",
        )
        assert light.supports_rgbw

    def test_supports_individual_rgbw_false(self):
        """Test supports_color false."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
        )
        assert not light.supports_rgbw

    def test_supports_hs_color_true(self):
        """Test supports_hs_color true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Hue and saturation",
            group_address_switch="1/6/4",
            group_address_hue="1/6/5",
            group_address_saturation="1/6/6",
        )
        assert light.supports_hs_color

    def test_supports_hs_color_false(self):
        """Test supports_hs_color false."""
        xknx = XKNX()
        light_hue = Light(
            xknx,
            "Light hue only",
            group_address_switch="1/6/4",
            group_address_hue="1/6/5",
        )
        assert not light_hue.supports_hs_color

        light_saturation = Light(
            xknx,
            "Light saturation only",
            group_address_switch="1/6/4",
            group_address_saturation="1/6/5",
        )
        assert not light_saturation.supports_hs_color

    def test_supports_xyy_color_true(self):
        """Test supports_xyy_color true."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_xyy_color="1/6/5",
        )
        assert light.supports_xyy_color

    def test_supports_xyy_color_false(self):
        """Test supports_xyy_color false."""
        xknx = XKNX()
        light = Light(xknx, "Diningroom.Light_1", group_address_switch="1/6/4")
        assert not light.supports_xyy_color

    #
    # TEST SUPPORT TUNABLE WHITE
    #
    def test_supports_tw_yes(self):
        """Test supports_tw attribute with a light with tunable white function."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_tunable_white="1/6/6",
        )
        assert light.supports_tunable_white

    def test_supports_tw_no(self):
        """Test supports_tw attribute with a Light without tunable white function."""
        xknx = XKNX()
        light = Light(xknx, "Diningroom.Light_1", group_address_switch="1/6/4")
        assert not light.supports_tunable_white

    #
    # TEST SUPPORT COLOR TEMPERATURE
    #
    def test_supports_color_temp_true(self):
        """Test supports_color_temp attribute with a light with color temperature function."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/6/4",
            group_address_color_temperature="1/6/6",
        )
        assert light.supports_color_temperature

    def test_supports_color_temp_false(self):
        """Test supports_color_temp attribute with a Light without color temperature function."""
        xknx = XKNX()
        light = Light(xknx, "Diningroom.Light_1", group_address_switch="1/6/4")
        assert not light.supports_color_temperature

    #
    # SYNC
    #
    async def test_sync(self):
        """Test sync function / sending group reads to KNX bus."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/3/5",
            group_address_switch_state="1/2/3",
            group_address_brightness_state="1/2/5",
            group_address_color_state="1/2/6",
            group_address_xyy_color_state="1/2/4",
            group_address_tunable_white_state="1/2/7",
            group_address_color_temperature_state="1/2/8",
            group_address_rgbw_state="1/2/9",
        )
        expected_telegrams = 7

        await light.sync()
        assert xknx.telegrams.qsize() == expected_telegrams

        telegrams = [xknx.telegrams.get_nowait() for _ in range(expected_telegrams)]
        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/2/3"), payload=GroupValueRead()
            ),
            Telegram(
                destination_address=GroupAddress("1/2/5"), payload=GroupValueRead()
            ),
            Telegram(
                destination_address=GroupAddress("1/2/6"), payload=GroupValueRead()
            ),
            Telegram(
                destination_address=GroupAddress("1/2/4"), payload=GroupValueRead()
            ),
            Telegram(
                destination_address=GroupAddress("1/2/9"), payload=GroupValueRead()
            ),
            Telegram(
                destination_address=GroupAddress("1/2/7"), payload=GroupValueRead()
            ),
            Telegram(
                destination_address=GroupAddress("1/2/8"), payload=GroupValueRead()
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

    async def test_sync_individual_color(self):
        """Test sync function / sending group reads to KNX bus. Testing with a Light without dimm functionality."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        await light.sync()

        assert xknx.telegrams.qsize() == 8

        telegrams = [xknx.telegrams.get_nowait() for _ in range(8)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/2"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/4"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/6"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/8"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/10"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/12"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/14"),
                payload=GroupValueRead(),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/16"),
                payload=GroupValueRead(),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

    #
    # TEST SET ON
    #
    async def test_set_on(self):
        """Test switching on a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
        )
        await light.set_on()
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/3"),
            payload=GroupValueWrite(DPTBinary(1)),
        )

    async def test_set_on_individual_color(self):
        """Test switching on a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        assert light.state is None
        for color in light._iter_individual_colors():
            assert color.is_on is None

        await light.set_on()
        assert xknx.telegrams.qsize() == 4

        telegrams = [xknx.telegrams.get_nowait() for _ in range(4)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/1"),
                payload=GroupValueWrite(DPTBinary(True)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/5"),
                payload=GroupValueWrite(DPTBinary(True)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/9"),
                payload=GroupValueWrite(DPTBinary(True)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/13"),
                payload=GroupValueWrite(DPTBinary(True)),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

        for telegram in telegrams:
            light.process(telegram)

        assert light.state is True
        for color in light._iter_individual_colors():
            assert color.is_on is True

    async def test_set_on_individual_color_only_brightness(self):
        """Test switching on a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Individual colors only brightness",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        assert light.state is None
        for color in light._iter_individual_colors():
            assert color.is_on is None

        await light.set_on()
        assert xknx.telegrams.qsize() == 4

        telegrams = [xknx.telegrams.get_nowait() for _ in range(4)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/3"),
                payload=GroupValueWrite(DPTArray((0xFF,))),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/7"),
                payload=GroupValueWrite(DPTArray((0xFF,))),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/11"),
                payload=GroupValueWrite(DPTArray((0xFF,))),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/15"),
                payload=GroupValueWrite(DPTArray((0xFF,))),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

        for telegram in telegrams:
            light.process(telegram)

        assert light.state is True
        for color in light._iter_individual_colors():
            assert color.is_on is True

    #
    # TEST SET OFF
    #
    async def test_set_off(self):
        """Test switching off a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
        )
        await light.set_off()
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/3"),
            payload=GroupValueWrite(DPTBinary(0)),
        )

        light.process(telegram)
        assert light.state is False

    async def test_set_off_individual_color(self):
        """Test switching off a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        await light.set_off()
        assert xknx.telegrams.qsize() == 4

        telegrams = [xknx.telegrams.get_nowait() for _ in range(4)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/1"),
                payload=GroupValueWrite(DPTBinary(False)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/5"),
                payload=GroupValueWrite(DPTBinary(False)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/9"),
                payload=GroupValueWrite(DPTBinary(False)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/13"),
                payload=GroupValueWrite(DPTBinary(False)),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

        for telegram in telegrams:
            light.process(telegram)
        assert light.state is False
        for color in light._iter_individual_colors():
            assert color.is_on is False

    async def test_set_off_individual_color_only_brightness(self):
        """Test switching off a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        await light.set_off()
        assert xknx.telegrams.qsize() == 4

        telegrams = [xknx.telegrams.get_nowait() for _ in range(4)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/3"),
                payload=GroupValueWrite(DPTArray((0,))),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/7"),
                payload=GroupValueWrite(DPTArray((0,))),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/11"),
                payload=GroupValueWrite(DPTArray((0,))),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/15"),
                payload=GroupValueWrite(DPTArray((0,))),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

        for telegram in telegrams:
            light.process(telegram)
        assert light.state is False
        for color in light._iter_individual_colors():
            assert color.is_on is False

    #
    # TEST SET BRIGHTNESS
    #
    async def test_set_brightness(self):
        """Test setting the brightness of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
        )
        await light.set_brightness(23)
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray(23)),
        )

    async def test_set_brightness_not_dimmable(self):
        """Test setting the brightness of a non dimmable Light."""
        xknx = XKNX()
        light = Light(xknx, name="TestLight", group_address_switch="1/2/3")
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_brightness(23)
            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "Dimming not supported for device %s", "TestLight"
            )

    async def test_set_individual_color_with_gloabl_switch(self):
        """Test switching on and dimming a Light with global addresses."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch="1/0/0",
            group_address_brightness="1/0/1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        assert light.state is None
        for color in light._iter_individual_colors():
            assert color.is_on is None
        # turn on
        await light.set_on()
        assert xknx.telegrams.qsize() == 1

        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/0/0"),
            payload=GroupValueWrite(DPTBinary(True)),
        )
        # brightness
        await light.set_brightness(23)
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/0/1"),
            payload=GroupValueWrite(DPTArray(23)),
        )

    #
    # TEST SET COLOR
    #
    async def test_set_color(self):
        """Test setting the color of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/5",
        )
        xknx.devices.async_add(light)

        await light.set_color((23, 24, 25))
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((23, 24, 25))),
        )
        xknx.devices.process(telegram)
        assert light.current_color == ((23, 24, 25), None)

    async def test_set_color_not_possible(self):
        """Test setting the color of a non light without color."""
        xknx = XKNX()
        light = Light(xknx, name="TestLight", group_address_switch="1/2/3")
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_color((23, 24, 25))
            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "Colors not supported for device %s", "TestLight"
            )

    async def test_set_individual_color(self):
        """Test setting the color of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
        )
        xknx.devices.async_add(light)

        await light.set_color([23, 24, 25])
        assert xknx.telegrams.qsize() == 3
        telegrams = [xknx.telegrams.get_nowait() for _ in range(3)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/3"),
                payload=GroupValueWrite(DPTArray(23)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/7"),
                payload=GroupValueWrite(DPTArray(24)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/11"),
                payload=GroupValueWrite(DPTArray(25)),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/4"),
                payload=GroupValueWrite(DPTArray(23)),
            )
        )
        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/8"),
                payload=GroupValueWrite(DPTArray(24)),
            )
        )
        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/12"),
                payload=GroupValueWrite(DPTArray(25)),
            )
        )
        assert light.current_color == ((23, 24, 25), None)

    async def test_set_individual_color_not_possible(self):
        """Test setting the color of a non light without color."""
        xknx = XKNX()
        light = Light(
            xknx,
            "TestLight",
            group_address_switch_red="1/1/1",
        )
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_color((23, 24, 25))
            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "Colors not supported for device %s", "TestLight"
            )

    #
    # TEST SET COLOR AS RGBW
    #
    async def test_set_color_rgbw(self):
        """Test setting RGBW value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/4",
            group_address_rgbw="1/2/5",
        )
        xknx.devices.async_add(light)

        await light.set_color((23, 24, 25), 26)
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((23, 24, 25, 26, 0, 15))),
        )
        xknx.devices.process(telegram)
        assert light.current_color == ((23, 24, 25), 26)

    async def test_set_color_rgbw_not_possible(self):
        """Test setting RGBW value of a non light without color."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/4",
        )
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_color((23, 24, 25), 26)

            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "RGBW not supported for device %s", "TestLight"
            )

    async def test_set_individual_color_rgbw(self):
        """Test setting RGBW value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        xknx.devices.async_add(light)

        await light.set_color([23, 24, 25], white=26)
        assert xknx.telegrams.qsize() == 4
        telegrams = [xknx.telegrams.get_nowait() for _ in range(4)]

        test_telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/3"),
                payload=GroupValueWrite(DPTArray(23)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/7"),
                payload=GroupValueWrite(DPTArray(24)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/11"),
                payload=GroupValueWrite(DPTArray(25)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/15"),
                payload=GroupValueWrite(DPTArray(26)),
            ),
        ]
        for test_telegram in test_telegrams:
            assert test_telegram in telegrams

        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/4"),
                payload=GroupValueWrite(DPTArray(23)),
            )
        )
        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/8"),
                payload=GroupValueWrite(DPTArray(24)),
            )
        )
        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/12"),
                payload=GroupValueWrite(DPTArray(25)),
            )
        )
        xknx.devices.process(
            Telegram(
                destination_address=GroupAddress("1/1/16"),
                payload=GroupValueWrite(DPTArray(26)),
            )
        )
        assert light.current_color == ((23, 24, 25), 26)

    async def test_set_individual_color_rgbw_not_possible(self):
        """Test setting RGBW value of a non light without color."""
        xknx = XKNX()
        light = Light(
            xknx,
            "TestLight",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
        )
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_color((23, 24, 25), 26)

            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "RGBW not supported for device %s", "TestLight"
            )

    #
    # TEST SET COLOR AS HS
    #
    async def test_set_hs_color(self):
        """Test setting HS value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_hue="1/2/4",
            group_address_saturation="1/2/5",
        )
        xknx.devices.async_add(light)

        await light.set_hs_color((359, 99))
        assert xknx.telegrams.qsize() == 2

        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/4"),
            payload=GroupValueWrite(DPTArray((0xFE,))),
        )
        xknx.devices.process(telegram)

        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((0xFC,))),
        )
        xknx.devices.process(telegram)

        assert light.current_hs_color == (359, 99)

        # change only one
        await light.set_hs_color((18, 99))
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/4"),
            payload=GroupValueWrite(DPTArray((0x0D,))),
        )
        xknx.devices.process(telegram)

        await light.set_hs_color((18, 3))
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((0x08,))),
        )
        xknx.devices.process(telegram)

        # call set_hs_color with current color shall trigger both values
        await light.set_hs_color((18, 3))
        assert xknx.telegrams.qsize() == 2

        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/4"),
            payload=GroupValueWrite(DPTArray((0x0D,))),
        )
        xknx.devices.process(telegram)

        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((0x08,))),
        )
        xknx.devices.process(telegram)

    async def test_set_hs_color_not_possible(self):
        """Test setting HS value of a light not supporting it."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/4",
        )
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_hs_color((22, 25))

            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "HS-color not supported for device %s", "TestLight"
            )

    #
    # TEST SET COLOR AS XYY
    #
    async def test_set_xyy_color(self):
        """Test setting XYY value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_xyy_color="1/2/4",
        )
        xknx.devices.async_add(light)

        await light.set_xyy_color(XYYColor((0.52, 0.31), 25))
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/4"),
            payload=GroupValueWrite(DPTArray((0x85, 0x1E, 0x4F, 0x5C, 0x19, 0x03))),
        )
        xknx.devices.process(telegram)
        assert light.current_xyy_color == XYYColor((0.52, 0.31), 25)

    async def test_set_xyy_color_not_possible(self):
        """Test setting XYY value of a light not supporting it."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/4",
        )
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_xyy_color(XYYColor((0.5, 0.3), 25))

            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "XYY-color not supported for device %s", "TestLight"
            )

    #
    # TEST SET TUNABLE WHITE
    #
    async def test_set_tw(self):
        """Test setting the tunable white value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_tunable_white="1/2/5",
        )
        xknx.devices.async_add(light)

        await light.set_tunable_white(23)
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray(23)),
        )

    async def test_set_tw_unsupported(self):
        """Test setting the tunable white value of a non tw Light."""
        xknx = XKNX()
        light = Light(xknx, name="TestLight", group_address_switch="1/2/3")
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_tunable_white(23)
            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "Tunable white not supported for device %s", "TestLight"
            )

    #
    # TEST SET COLOR TEMPERATURE
    #
    async def test_set_color_temp(self):
        """Test setting the color temperature value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color_temperature="1/2/5",
        )
        xknx.devices.async_add(light)

        await light.set_color_temperature(4000)
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(
                DPTArray(
                    (
                        0x0F,
                        0xA0,
                    )
                )
            ),
        )

    async def test_set_color_temp_float(self):
        """Test setting the float color temperature value of a Light."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color_temperature="1/2/5",
            color_temperature_type=ColorTemperatureType.FLOAT_2_BYTE,
        )
        xknx.devices.async_add(light)

        await light.set_color_temperature(4000)
        assert xknx.telegrams.qsize() == 1
        telegram = xknx.telegrams.get_nowait()
        assert telegram == Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(
                DPTArray(
                    (
                        0x46,
                        0x1A,
                    )
                )
            ),
        )

    async def test_set_color_temp_unsupported(self):
        """Test setting the color temperature value of an unsupported Light."""
        xknx = XKNX()
        light = Light(xknx, name="TestLight", group_address_switch="1/2/3")
        xknx.devices.async_add(light)

        with patch("logging.Logger.warning") as mock_warn:
            await light.set_color_temperature(4000)
            assert xknx.telegrams.qsize() == 0
            mock_warn.assert_called_with(
                "Absolute Color Temperature not supported for device %s", "TestLight"
            )

    #
    # TEST PROCESS
    #
    async def test_process_switch(self):
        """Test process / reading telegrams from telegram queue. Test if switch position is processed correctly."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
        )
        xknx.devices.async_add(light)

        assert light.state is None

        telegram = Telegram(
            destination_address=GroupAddress("1/2/3"),
            payload=GroupValueWrite(DPTBinary(1)),
        )
        light.process(telegram)
        assert light.state is True

        telegram = Telegram(
            destination_address=GroupAddress("1/2/3"),
            payload=GroupValueWrite(DPTBinary(0)),
        )
        light.process(telegram)
        assert light.state is False

    async def test_process_color_switch(self):
        """Test process / reading telegrams from telegram queue. Test if switch position is processed correctly."""
        xknx = XKNX()
        light = Light(
            xknx,
            "TestLight",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
        )
        xknx.devices.async_add(light)

        assert light.state is None

        telegram = Telegram(
            destination_address=GroupAddress("1/1/2"),
            payload=GroupValueWrite(DPTBinary(True)),
        )
        light.process(telegram)
        assert light.state is True

        telegram = Telegram(
            destination_address=GroupAddress("1/1/2"),
            payload=GroupValueWrite(DPTBinary(False)),
        )
        light.process(telegram)
        assert light.state is False

    async def test_process_switch_callback(self):
        """Test process / reading telegrams from telegram queue. Test if callback is called."""

        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
        )
        xknx.devices.async_add(light)

        after_update_callback = Mock()
        light.register_device_updated_cb(after_update_callback)

        telegram = Telegram(
            destination_address=GroupAddress("1/2/3"),
            payload=GroupValueWrite(DPTBinary(1)),
        )
        light.process(telegram)
        after_update_callback.assert_called_with(light)

    async def test_process_dimm(self):
        """Test process / reading telegrams from telegram queue. Test if brightness is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
        )
        xknx.devices.async_add(light)

        assert light.current_brightness is None

        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray(23)),
        )
        light.process(telegram)
        assert light.current_brightness == 23

    async def test_process_dimm_wrong_payload(self):
        """Test process wrong telegrams. (wrong payload type)."""
        xknx = XKNX()
        cb_mock = Mock()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
            device_updated_cb=cb_mock,
        )
        xknx.devices.async_add(light)

        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTBinary(1)),
        )
        with patch("logging.Logger.warning") as log_mock:
            light.process(telegram)
            log_mock.assert_called_once()
            cb_mock.assert_not_called()

    async def test_process_dimm_payload_invalid_length(self):
        """Test process wrong telegrams. (wrong payload length)."""
        xknx = XKNX()
        cb_mock = Mock()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_brightness="1/2/5",
            device_updated_cb=cb_mock,
        )
        xknx.devices.async_add(light)

        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((23, 24))),
        )
        with patch("logging.Logger.warning") as log_mock:
            light.process(telegram)
            log_mock.assert_called_once()
            cb_mock.assert_not_called()

    async def test_process_color(self):
        """Test process / reading telegrams from telegram queue. Test if color is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/5",
        )
        xknx.devices.async_add(light)

        assert light.current_color == (None, None)
        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((23, 24, 25))),
        )
        light.process(telegram)
        assert light.current_color == ((23, 24, 25), None)

    async def test_process_individual_color(self):
        """Test process / reading telegrams from telegram queue. Test if color is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            "TestLight",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
        )
        xknx.devices.async_add(light)

        assert light.current_color == (None, None)

        telegrams = [
            Telegram(
                destination_address=GroupAddress("1/1/4"),
                payload=GroupValueWrite(DPTArray(42)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/8"),
                payload=GroupValueWrite(DPTArray(43)),
            ),
            Telegram(
                destination_address=GroupAddress("1/1/12"),
                payload=GroupValueWrite(DPTArray(44)),
            ),
        ]

        for telegram in telegrams:
            light.process(telegram)
        assert light.current_color == ((42, 43, 44), None)

    async def test_process_color_rgbw(self):
        """Test process / reading telegrams from telegram queue. Test if RGBW is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color="1/2/4",
            group_address_rgbw="1/2/5",
        )
        xknx.devices.async_add(light)

        assert light.current_color == (None, None)
        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((23, 24, 25, 26, 0, 15))),
        )
        light.process(telegram)
        assert light.current_color == ((23, 24, 25), 26)

    async def test_process_individual_color_rgbw(self):
        """Test process / reading telegrams from telegram queue. Test if RGBW is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Diningroom.Light_1",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        xknx.devices.async_add(light)

        assert light.current_color == (None, None)
        telegram = Telegram(
            destination_address=GroupAddress("1/1/16"),
            payload=GroupValueWrite(DPTArray(42)),
        )
        light.process(telegram)
        assert light.current_color == (None, 42)

    async def test_process_individual_color_debouncer(self, time_travel):
        """Test the debouncer for individual color lights."""
        xknx = XKNX()
        rgb_callback = Mock()
        rgbw_callback = Mock()

        rgb_light = Light(
            xknx,
            "TestRGBLight",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            device_updated_cb=rgb_callback,
        )
        xknx.devices.async_add(rgb_light)
        rgbw_light = Light(
            xknx,
            "TestRGBWLight",
            group_address_switch="1/1/0",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
            device_updated_cb=rgbw_callback,
        )
        xknx.devices.async_add(rgbw_light)

        assert rgb_light.current_color == (None, None)
        assert rgbw_light.current_color == (None, None)

        red = Telegram(
            destination_address=GroupAddress("1/1/4"),
            payload=GroupValueWrite(DPTArray(42)),
        )
        green = Telegram(
            destination_address=GroupAddress("1/1/8"),
            payload=GroupValueWrite(DPTArray(43)),
        )
        blue = Telegram(
            destination_address=GroupAddress("1/1/12"),
            payload=GroupValueWrite(DPTArray(44)),
        )
        white = Telegram(
            destination_address=GroupAddress("1/1/16"),
            payload=GroupValueWrite(DPTArray(50)),
        )

        xknx.devices.process(red)
        rgb_callback.assert_not_called()
        rgbw_callback.assert_not_called()
        xknx.devices.process(green)
        rgb_callback.assert_not_called()
        rgbw_callback.assert_not_called()
        xknx.devices.process(blue)
        rgb_callback.assert_called_once()
        rgbw_callback.assert_not_called()
        xknx.devices.process(white)
        rgbw_callback.assert_called_once()

        assert rgb_light.current_color == ((42, 43, 44), None)
        assert rgbw_light.current_color == ((42, 43, 44), 50)

        rgb_callback.reset_mock()
        rgbw_callback.reset_mock()
        # second time with only 2 telegrams
        xknx.devices.process(red)
        rgb_callback.assert_not_called()
        rgbw_callback.assert_not_called()
        xknx.devices.process(green)
        rgb_callback.assert_not_called()
        rgbw_callback.assert_not_called()
        await time_travel(Light.DEBOUNCE_TIMEOUT / 2)
        rgb_callback.assert_not_called()
        rgbw_callback.assert_not_called()
        await time_travel(Light.DEBOUNCE_TIMEOUT / 2)
        rgb_callback.assert_called_once()
        rgbw_callback.assert_called_once()

        assert rgb_light.current_color == ((42, 43, 44), None)
        assert rgbw_light.current_color == ((42, 43, 44), 50)

    async def test_process_hs_color(self):
        """Test process / reading telegrams from telegram queue. Test if color is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_hue="1/2/4",
            group_address_hue_state="1/4/4",
            group_address_saturation="1/2/5",
            group_address_saturation_state="1/4/5",
        )
        assert light.current_hs_color is None
        # initialize hue
        light.process(
            Telegram(
                destination_address=GroupAddress("1/4/4"),
                payload=GroupValueWrite(DPTArray((0x2E,))),
            )
        )
        assert light.current_hs_color is None
        # initialize saturation
        light.process(
            Telegram(
                destination_address=GroupAddress("1/4/5"),
                payload=GroupValueWrite(DPTArray((0x55,))),
            )
        )
        assert light.current_hs_color == (65, 33)

    async def test_process_xyy_color(self):
        """Test process / reading telegrams from telegram queue. Test if color is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_xyy_color="1/2/5",
        )
        assert light.current_xyy_color is None
        # initial with invalid brightness
        light.process(
            Telegram(
                destination_address=GroupAddress("1/2/5"),
                payload=GroupValueWrite(DPTArray((0x2E, 0x14, 0x40, 0x00, 0x55, 0x02))),
            )
        )
        assert light.current_xyy_color == XYYColor((0.18, 0.25), None)
        # add valid brightness
        light.process(
            Telegram(
                destination_address=GroupAddress("1/2/5"),
                payload=GroupValueWrite(DPTArray((0x2E, 0x14, 0x40, 0x00, 0x55, 0x03))),
            )
        )
        assert light.current_xyy_color == XYYColor((0.18, 0.25), 85)
        # invalid color
        light.process(
            Telegram(
                destination_address=GroupAddress("1/2/5"),
                payload=GroupValueWrite(DPTArray((0xD1, 0xEB, 0xB0, 0xA3, 0xA5, 0x01))),
            )
        )
        assert light.current_xyy_color == XYYColor((0.18, 0.25), 165)
        # both valid
        light.process(
            Telegram(
                destination_address=GroupAddress("1/2/5"),
                payload=GroupValueWrite(DPTArray((0xD1, 0xEB, 0xB0, 0xA3, 0xA5, 0x03))),
            )
        )
        assert light.current_xyy_color == XYYColor((0.82, 0.69), 165)
        # invalid brightness
        light.process(
            Telegram(
                destination_address=GroupAddress("1/2/5"),
                payload=GroupValueWrite(DPTArray((0x2E, 0x14, 0x40, 0x00, 0x00, 0x02))),
            )
        )
        assert light.current_xyy_color == XYYColor((0.18, 0.25), 165)

    async def test_process_tunable_white(self):
        """Test process / reading telegrams from telegram queue. Test if tunable white is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_tunable_white="1/2/5",
        )
        assert light.current_tunable_white is None

        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray(23)),
        )
        light.process(telegram)
        assert light.current_tunable_white == 23

    async def test_process_tunable_white_wrong_payload(self):
        """Test process wrong telegrams. (wrong payload type)."""
        xknx = XKNX()
        cb_mock = Mock()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_tunable_white="1/2/5",
            device_updated_cb=cb_mock,
        )
        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTBinary(1)),
        )
        with patch("logging.Logger.warning") as log_mock:
            light.process(telegram)
            log_mock.assert_called_once()
            cb_mock.assert_not_called()

    async def test_process_tunable_white_payload_invalid_length(self):
        """Test process wrong telegrams. (wrong payload length)."""
        xknx = XKNX()
        cb_mock = Mock()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_tunable_white="1/2/5",
            device_updated_cb=cb_mock,
        )
        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray((23, 24))),
        )
        with patch("logging.Logger.warning") as log_mock:
            light.process(telegram)
            log_mock.assert_called_once()
            cb_mock.assert_not_called()

    async def test_process_color_temperature(self):
        """Test process / reading telegrams from telegram queue. Test if color temperature is processed."""
        xknx = XKNX()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color_temperature="1/2/5",
        )
        assert light.current_color_temperature is None

        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(
                DPTArray(
                    (
                        0x0F,
                        0xA0,
                    )
                )
            ),
        )
        light.process(telegram)
        assert light.current_color_temperature == 4000

    async def test_process_color_temperature_wrong_payload(self):
        """Test process wrong telegrams. (wrong payload type)."""
        xknx = XKNX()
        cb_mock = Mock()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color_temperature="1/2/5",
            device_updated_cb=cb_mock,
        )
        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTBinary(1)),
        )
        with patch("logging.Logger.warning") as log_mock:
            light.process(telegram)
            log_mock.assert_called_once()
            cb_mock.assert_not_called()

    async def test_process_color_temperature_payload_invalid_length(self):
        """Test process wrong telegrams. (wrong payload length)."""
        xknx = XKNX()
        cb_mock = Mock()
        light = Light(
            xknx,
            name="TestLight",
            group_address_switch="1/2/3",
            group_address_color_temperature="1/2/5",
            device_updated_cb=cb_mock,
        )
        telegram = Telegram(
            destination_address=GroupAddress("1/2/5"),
            payload=GroupValueWrite(DPTArray(23)),
        )
        with patch("logging.Logger.warning") as log_mock:
            light.process(telegram)
            log_mock.assert_called_once()
            cb_mock.assert_not_called()

    def test_has_group_address(self):
        """Test has_group_address."""
        xknx = XKNX()
        light = Light(
            xknx,
            "Office.Light_1",
            group_address_switch="1/7/1",
            group_address_switch_state="1/7/2",
            group_address_brightness="1/7/3",
            group_address_brightness_state="1/7/4",
            group_address_color="1/7/5",
            group_address_color_state="1/7/6",
            group_address_tunable_white="1/7/7",
            group_address_tunable_white_state="1/7/8",
            group_address_color_temperature="1/7/9",
            group_address_color_temperature_state="1/7/10",
            group_address_rgbw="1/7/11",
            group_address_rgbw_state="1/7/12",
            group_address_hue="1/7/81",
            group_address_hue_state="1/7/82",
            group_address_saturation="1/7/83",
            group_address_saturation_state="1/7/84",
            group_address_xyy_color="1/7/13",
            group_address_xyy_color_state="1/7/14",
            group_address_switch_red="1/1/1",
            group_address_switch_red_state="1/1/2",
            group_address_brightness_red="1/1/3",
            group_address_brightness_red_state="1/1/4",
            group_address_switch_green="1/1/5",
            group_address_switch_green_state="1/1/6",
            group_address_brightness_green="1/1/7",
            group_address_brightness_green_state="1/1/8",
            group_address_switch_blue="1/1/9",
            group_address_switch_blue_state="1/1/10",
            group_address_brightness_blue="1/1/11",
            group_address_brightness_blue_state="1/1/12",
            group_address_switch_white="1/1/13",
            group_address_switch_white_state="1/1/14",
            group_address_brightness_white="1/1/15",
            group_address_brightness_white_state="1/1/16",
        )
        assert light.has_group_address(GroupAddress("1/7/1"))
        assert light.has_group_address(GroupAddress("1/7/2"))
        assert light.has_group_address(GroupAddress("1/7/3"))
        assert light.has_group_address(GroupAddress("1/7/4"))
        assert light.has_group_address(GroupAddress("1/7/5"))
        assert light.has_group_address(GroupAddress("1/7/6"))
        assert light.has_group_address(GroupAddress("1/7/7"))
        assert light.has_group_address(GroupAddress("1/7/8"))
        assert light.has_group_address(GroupAddress("1/7/9"))
        assert light.has_group_address(GroupAddress("1/7/10"))
        assert light.has_group_address(GroupAddress("1/7/11"))
        assert light.has_group_address(GroupAddress("1/7/12"))
        # hue
        assert light.has_group_address(GroupAddress("1/7/81"))
        assert light.has_group_address(GroupAddress("1/7/82"))
        # saturation
        assert light.has_group_address(GroupAddress("1/7/83"))
        assert light.has_group_address(GroupAddress("1/7/84"))
        # xyy
        assert light.has_group_address(GroupAddress("1/7/13"))
        assert light.has_group_address(GroupAddress("1/7/14"))
        # individual
        assert light.has_group_address(GroupAddress("1/1/1"))
        assert light.has_group_address(GroupAddress("1/1/2"))
        assert light.has_group_address(GroupAddress("1/1/3"))
        assert light.has_group_address(GroupAddress("1/1/4"))
        assert light.has_group_address(GroupAddress("1/1/5"))
        assert light.has_group_address(GroupAddress("1/1/6"))
        assert light.has_group_address(GroupAddress("1/1/7"))
        assert light.has_group_address(GroupAddress("1/1/8"))
        assert light.has_group_address(GroupAddress("1/1/9"))
        assert light.has_group_address(GroupAddress("1/1/10"))
        assert light.has_group_address(GroupAddress("1/1/11"))
        assert light.has_group_address(GroupAddress("1/1/12"))
        assert light.has_group_address(GroupAddress("1/1/13"))
        assert light.has_group_address(GroupAddress("1/1/14"))
        assert light.has_group_address(GroupAddress("1/1/15"))
        assert light.has_group_address(GroupAddress("1/1/16"))

        assert not light.has_group_address(GroupAddress("1/7/15"))
